Display panel and display device

ABSTRACT

Provided is a display panel, including an array substrate and a color film substrate; in the array substrate, every two adjacent columns of highlight sub-pixels form a group of highlight sub-pixels, at least one column of color sub-pixels is arranged between any two groups of highlight sub-pixels; the color film substrate includes a black matrix and color filters arranged in array, the black matrix includes a first and second black matrixes, the color filter includes columns of highlight color filters and columns of colored color filters, every two adjacent columns of highlight color filters form a group of highlight color filters, at least one column of colored color filters is arranged between any two groups of highlight color filters; on the color film substrate, orthogonal projection of the second black matrix does not overlap with orthogonal projection of the gap between the two adjacent columns of highlight color filters.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application claims the benefit of priority to Chinese PatentApplication No. 201710466979.5, filed on Jun. 19, 2017, the content ofwhich is incorporated herein by reference in its entirety.

TECHNICAL FIELD

The present disclosure relates to the field of display technologies and,particularly, relates to a display panel and a display device.

BACKGROUND

In a conventional display panel, each pixel normally adopts athree-color sub-pixel structure, i.e., RGB (Red, Green, Blue) structure.In order to improve brightness of the display panel and reduce powerconsumption of the display panel, recently, for a display panel, eachpixel adopts a RGBW (Red, Green, Blue, White) four-color sub-pixelstructure, that is, adding a white transparent sub-pixel in the originalRGB three-color sub-pixel structure, thereby the brightness can beimproved and the power consumption can be reduced.

However, it is found that, in order to prevent from color mixture ofadjacent sub-pixels with different colors, it is necessary to arrange ablack matrix around each sub-pixel, resulting in that the area occupiedby the black matrix for light shading in the display area of the displaypanel is large, and the open rate of the display panel is low, therebycausing a poor transparent display effect of the display panel.

SUMMARY

In view of the above, the embodiment of the present disclosure providesa display panel and a display device, so as to solve the technicalproblems of low open rate and poor transparent display effect of thedisplay panel in the prior art.

In a first aspect, the embodiment of the present disclosure provides adisplay panel, including: an array substrate; and a color film substratearranged opposite to the array substrate; wherein the array substrateincludes a plurality of columns of highlight sub-pixels and a pluralityof columns of color sub-pixels; every two adjacent columns of highlightsub-pixels form a group of highlight sub-pixels, at least one column ofcolor sub-pixels is arranged between any two groups of highlightsub-pixels; each column of color sub-pixels includes at least one typeof a first color sub-pixel, a second color sub-pixel and a third colorsub-pixel; and wherein the color film substrate includes a black matrixand a plurality of color filters arranged in an array; in a rowdirection, the black matrix includes a first black matrix correspondingto a gap between adjacent two sub-pixels and, in a column direction, theblack matrix includes a second black matrix corresponding to a gapbetween adjacent two sub-pixels; the plurality of color filters includesa plurality of columns of highlight color filters and a plurality ofcolumns of colored color filters, every two adjacent columns ofhighlight color filters form a group of highlight color filters, atleast one column of colored color filters is arranged between any twogroups of highlight color filters, and each column of colored colorfilters includes at least one type of a first colored color filter, asecond colored color filter and a third colored color filter; anorthogonal projection of the second black matrix on the color filmsubstrate does not overlap with an orthogonal projection of the gapbetween the two adjacent columns of highlight color filters on the colorfilm substrate.

In a second aspect, the embodiment of the present disclosure provides adisplay device, including a display panel, wherein the display panelincludes: an array substrate; and a color film substrate arrangedopposite to the array substrate; wherein the array substrate includes aplurality of columns of highlight sub-pixels and a plurality of columnsof color sub-pixels; every two adjacent columns of highlight sub-pixelsform a group of highlight sub-pixels, at least one column of colorsub-pixels is arranged between any two groups of highlight sub-pixels;each column of color sub-pixels includes at least one type of a firstcolor sub-pixel, a second color sub-pixel and a third color sub-pixel;and wherein the color film substrate includes a black matrix and aplurality of color filters arranged in an array; in a row direction, theblack matrix includes a first black matrix corresponding to a gapbetween adjacent two sub-pixels and, in a column direction, the blackmatrix includes a second black matrix corresponding to a gap betweenadjacent two sub-pixels; the plurality of color filters includes aplurality of columns of highlight color filters and a plurality ofcolumns of colored color filters, every two adjacent columns ofhighlight color filters form a group of highlight color filters, atleast one column of colored color filters is arranged between any twogroups of highlight color filters, and each column of colored colorfilters includes at least one type of a first colored color filter, asecond colored color filter and a third colored color filter; anorthogonal projection of the second black matrix on the color filmsubstrate does not overlap with an orthogonal projection of the gapbetween the two adjacent columns of highlight color filters on the colorfilm substrate.

The embodiments of the present disclosure provide a display panel and adisplay device, in the display panel, every two adjacent columns ofhighlight sub-pixels in the array substrate form a group of highlightsub-pixels, at least one column of color sub-pixels is arranged betweenany two groups of highlight sub-pixels, correspondingly, every twoadjacent columns of highlight color filters in the color film substrateform a group of highlight color filters, at least one column of coloredcolor filters is arranged between any two groups of highlight colorfilters. Since the colors of the output light of adjacent two columns ofhighlight sub-pixels and adjacent two columns of highlight color filtersare the same, color mixture will not occur, thus the orthogonalprojection of the second black matrix on the color film substrate doesnot overlap with the orthogonal projection of the gap between theadjacent two columns of highlight color filters on the color filmsubstrate, which effectively reduces the area occupied by the blackmatrix for light shading in the display area of the display panel, andimproves the open rate of the display panel, thereby improving thetransparent display effect of the display panel.

BRIEF DESCRIPTION OF DRAWINGS

In order to more clearly illustrate the technical solutions inembodiments of the present invention, a brief introduction of thedrawings used in the embodiments will be provided as follows. Obviously,the drawings described below are merely some embodiments of the presentinvention, those skilled in the art can also obtain other drawingsaccording to these drawings without creative work.

FIG. 1 illustrates a top view of a display panel in the prior art;

FIG. 2 illustrates a cross-sectional schematic diagram of a displaypanel according to an embodiment of the present disclosure;

FIG. 3 illustrates a first top view of an array substrate according toan embodiment of the present disclosure;

FIG. 4 illustrates a first top view of a color film substrate accordingto an embodiment of the present disclosure;

FIG. 5 illustrates a second top view of an array substrate according toan embodiment of the present disclosure;

FIG. 6 illustrates a second top view of a color film substrate accordingto an embodiment of the present disclosure;

FIG. 7 illustrates a third top view of a color film substrate accordingto an embodiment of the present disclosure;

FIG. 8 illustrates a cross-sectional schematic diagram along A-A′direction in FIG. 4 according to an embodiment of the presentdisclosure;

FIG. 9 illustrates a third top view of an array substrate according toan embodiment of the present disclosure;

FIG. 10 illustrates a first schematic diagram of an arrangement ofsub-pixels according to an embodiment of the present disclosure;

FIG. 11 illustrates a fourth top view of an array substrate according toan embodiment of the present disclosure;

FIG. 12 illustrates a fifth top view of an array substrate according toan embodiment of the present disclosure;

FIG. 13 illustrates a sixth top view of an array substrate according toan embodiment of the present disclosure;

FIG. 14 illustrates a fourth top view of a color film substrateaccording to an embodiment of the present disclosure;

FIG. 15 illustrates a second schematic diagram of an arrangement ofsub-pixels according to an embodiment of the present disclosure;

FIG. 16 illustrates a seventh top view of an array substrate accordingto an embodiment of the present disclosure;

FIG. 17 illustrates an eighth top view of an array substrate accordingto an embodiment of the present disclosure;

FIG. 18 illustrates a ninth top view of an array substrate according toan embodiment of the present disclosure;

FIG. 19 illustrates a fifth top view of a color film substrate accordingto an embodiment of the present disclosure; and

FIG. 20 illustrates a top view of a display device according to anembodiment of the present disclosure.

DESCRIPTION OF EMBODIMENTS

In order to better understand the technical solutions of the presentdisclosure, the present disclosure will be described in detail withreference to the accompanying drawings.

It should be noted that, the embodiments described are only a part ofthe embodiments of the present disclosure, rather than all of theembodiments. Based on the embodiments in the present disclosure, allother embodiments obtained by those skilled in the art without creativework shall belong to the protection scope of the present disclosure.

The terms used in the embodiments of the present disclosure are onlyused for the describing specific embodiments, but not intended to limitthe present disclosure. The singular form of ‘a’, ‘an’, ‘the’ and ‘said’used in the embodiments of the present disclosure and the appendedclaims is intended to include the plural form, unless otherwise clearlyindicated in the context.

It should be understood that, although the embodiments of the presentdisclosure adopts terms such as first, second, third and the like todescribe the color sub-pixels (or black matrixes), these colorsub-pixels (or black matrixes) should not be limited by these terms.These terms only are used to distinguish the color sub-pixels (or blackmatrixes) from each other. For example, without departing from the scopeof the embodiments of the present disclosure, a first color sub-pixel(or black matrix) can also be called as a second color sub-pixel (orblack matrix), similarly, a second color sub-pixel (or black matrix) canalso be called as a first color sub-pixel (or black matrix).

As shown in FIG. 1, FIG. 1 illustrates a top view of a display panel inthe prior art.

Each pixel (shown in the dotted frame in FIG. 1) in the display paneladopts a RGBW (Red, Green, Blue, White) four-color sub-pixel structure,that is, adding a white transparent sub-pixel in the original RGBthree-color sub-pixel structure, so as to improve the brightness andreduce power consumption.

However, it is found that, since the arrangement of the sub-pixels is asshown in

FIG. 1, in order to prevent from color mixture of adjacent sub-pixelswith different colors, it is necessary to arrange a black matrix 10′around each sub-pixel, resulting in that the area occupied by the blackmatrix 10′ for light shading in the display area of the display panel islarge, and the open rate of the display panel is low, thereby causing apoor transparent display effect of the display panel.

An embodiment of the present disclosure provides a display panel, asshown in FIG. 2, FIG. 2 illustrates a cross-sectional schematic diagramof a display panel according to an embodiment of the present disclosure.The display panel includes an array substrate 1 and a color filmsubstrate 2 arranged opposite to the array substrate 1. The displaypanel further includes a liquid crystal layer located between the arraysubstrate 1 and the color film substrate 2.

As shown in FIG. 3, FIG. 3 illustrates a first top view of an arraysubstrate according to an embodiment of the present disclosure. Thearray substrate 1 includes a plurality of columns of highlightsub-pixels 11 and a plurality of columns of color sub-pixels 12. Everytwo adjacent columns of highlight sub-pixels form a group of highlightsub-pixels 11, and at least one column of color sub-pixels 12 isarranged between any two groups of highlight sub-pixels 11. Each columnof color sub-pixels 12 include one, two or three of a first colorsub-pixel 12 a, a second color sub-pixel 12 b and a third colorsub-pixel 12 c. As shown in FIG. 3, one column of color sub-pixels 12 isarranged between any two groups of highlight sub-pixels 11, and thecolor sub-pixel 12 in each column is a first color sub-pixel 12 a or asecond color sub-pixel 12 b or a third color sub-pixel 12 c.

As shown in FIG. 4, FIG. 4 illustrates a first top view of a color filmsubstrate according to an embodiment of the present disclosure. Thecolor film substrate 2 includes a black matrix 21, and a plurality ofcolor filters 22 arranged in an array. In a row direction of the colorfilm substrate 2, the black matrix 21 includes a first black matrix 21 acorresponding to a gap between adjacent two sub-pixels and, in a columndirection of the color film substrate 2, the black matrix 21 includes asecond black matrix 21 b corresponding to a gap between adjacent twosub-pixels. That is, an extending direction of the first black matrix 21a is the row direction of the color film substrate 2, and an extendingdirection of the second black matrix 21 b is the column direction of thecolor film substrate 2. The plurality of color filters 22 includes aplurality of columns of highlight color filters 221 and a plurality ofcolumns of colored color filters, every two adjacent columns ofhighlight color filters 221 form a group of highlight color filters 221,and at least one column of colored color filters is arranged between anytwo groups of highlight color filters 221. Each column of colored colorfilters includes one, two or three of a first colored color filter 222,a second colored color filter 223 and a third colored color filter 224.An orthogonal projection of the second black matrix 21 b on the colorfilm substrate 2 does not overlap with an orthogonal projection of thegap between the adjacent two columns of highlight color filters 221,that is, no second black matrix 21 b is provided at the gap of theadjacent two columns of highlight color filters 221.

It should be noted that, the number of column of color sub-pixels 12between any two groups of highlight sub-pixels 11 corresponds to thenumber of column of colored color filters arranged between any twogroups of highlight color filter 221. For example, as shown in FIG. 3,two columns of color sub-pixels 12 are arranged between any two groupsof highlight sub-pixels 11, correspondingly, as shown in FIG. 4, twocolumns of colored color filters are arranged between any two groups ofhighlight color filters 221. As for the situations with other numbers ofcolumn of color sub-pixels 12 arranged between any two groups ofhighlight sub-pixels 11, and other numbers of column of colored colorfilters arranged between any two groups of highlight color filters 221,will be illustrated in the following contents of the embodiments of thepresent disclosure.

Similarly, the type of the color sub-pixel included in each column ofcolor sub-pixels 12 also corresponds to the type of the colored colorfilter included in each column of colored color filters. In an example,as shown in FIG. 3, each column of color sub-pixels 12 only includes oneof the first color sub-pixel 12 a, the second color sub-pixel 12 b andthe third color sub-pixel 12 c, correspondingly, as shown in FIG. 4,each column of colored color filters only includes one of the firstcolored color filter 222, the second colored color filter 223 and thethird colored color filter 224. In another example, as shown in FIG. 5,FIG. 5 illustrates a second top view of an array substrate according toan embodiment of the present disclosure. Each column of color sub-pixels12 includes a first color sub-pixel 12 a, a second color sub-pixel 12 band a third color sub-pixel 12 c, and the first color sub-pixel 12 a,the second color sub-pixel 12 b and the third color sub-pixel 12 c aresuccessively arranged alternatively. Correspondingly, as shown in FIG.6, FIG. 6 illustrates a second top view of a color film substrateaccording to an embodiment of the present disclosure. Each column ofcolored color filters includes a first colored color filter 222, asecond colored color filter 223 and a third colored color filter 224,and the first colored color filter 222, the second colored color filter223 and the third colored color filter 224 are successively arrangedalternatively.

Optionally, as shown in FIG. 7, FIG. 7 illustrates a third top view of acolor film substrate according to an embodiment of the presentdisclosure. An orthogonal projection of the first black matrix 21 a onthe color film substrate 2 does not overlap with an orthogonalprojection of the adjacent two highlight color filters 221, so as tofurther reduce the area occupied by the black matrix 21 in the displayarea of the display panel, further improve the open rate of the displaypanel, and improve transparent display effect of the display panel.

Optionally, the first color sub-pixel 12 a, the second color sub-pixel12 b and the third color sub-pixel 12 c of the embodiments of thepresent disclosure are respectively one of the red sub-pixel, the greensub-pixel and the blue sub-pixel. Correspondingly, the first coloredcolor filter 222, the second colored color filter 223 and the thirdcolored color filter 224 in the embodiments of the present disclosureare respectively one of the red color filter, the green color filter andthe blue color filter. For example, as shown in FIG. 3, the first colorsub-pixel 12 a is a red sub-pixel (indicated by R in FIG. 3), the secondcolor sub-pixel 12 b is a green sub-pixel (indicated by G in FIG. 3),and the third color sub-pixel 12 c is a blue sub-pixel (indicated by Bin FIG. 3). For example, as shown in FIG. 4, the first colored colorfilter is a red color filter (indicated by R in FIG. 4), the secondcolored color filter is a green color filter (indicated by G in FIG. 4),and the third colored color filter is a blue color filter (indicated byB in FIG. 4).

Optionally, the highlight sub-pixel 11 is a white sub-pixel or a yellowsub-pixel. Correspondingly, the highlight color filter in theembodiments of the present disclosure is a white color filter or ayellow color filter. As shown in FIG. 4, when the highlight color filter221 is a white color filter, as shown in FIG. 8, FIG. 8 illustrates across-sectional schematic diagram along A-A′ direction in FIG. 4according to an embodiment of the present disclosure, the color filmsubstrate 2 further includes a transparent protection layer 23 locatedat a side of the color filters 22 arranged in array close to the arraysubstrate, the material of the highlight color filter 221 is the same asthat of the transparent protection layer 23, that is, during the processof making the color film substrate 2, the colored color filter is madefirstly, after the colored color filter is made, an area correspondingto the highlight color filter is blank, then during the process ofmaking the transparent protection layer 23, the material correspondingto the transparent protection layer 23 is filled in said area, so as toform the highlight color filter 221. Optionally, the highlight colorfilter 221 and the transparent protection layer 23 are made of atransparent resin.

Optionally, as shown in FIG. 3, each sub-pixel has a rectangle shape,and has a same size, a width-length ratio thereof is 1:2 or 1:3.

In addition, since every two adjacent columns of highlight sub-pixels 11in the array substrate 1 form a group of highlight sub-pixels 11, atleast one column of color sub-pixels 12 is arranged between any twogroups of highlight sub-pixels 11, correspondingly, every two adjacentcolumns of highlight color filters 221 in the color film substrate 2form a group of highlight color filters 221, at least one column ofcolored color filters is arranged between any two groups of highlightcolor filters 221, so that the colors of the output light of adjacenttwo columns of highlight sub-pixels 11 or adjacent two columns ofhighlight color filters 221 are the same, color mixing will not occur;further, since the orthogonal projection of the second black matrix 21 bon the color film substrate 2 does not overlap with the orthogonalprojection of the gap between the adjacent two columns of highlightcolor filters 221, the area occupied by the black matrix 21 for lightshading in the display area of the display panel is effectively reduced,which improves the open rate of the display panel, thereby improving thetransparent display effect of the display panel.

As shown in FIG. 9, FIG. 9 illustrates a third top view of an arraysubstrate according to an embodiment of the present disclosure.Generally, the array substrate 1 is further provided with a plurality ofgate lines 13 extending along the row direction of the array substrate1, and a plurality of data lines 14 extending along the column directionof the array substrate 1, the gate lines 13 and the data lines 14cooperatively define a plurality of pixel areas, the gate lines 13 arelocated between adjacent two rows of pixel areas, the data line 14 islocated between adjacent two columns of pixel areas. A pixel electrode15 and a thin film transistor switch 16 are arranged in each pixel area.A gate electrode of the thin film transistor switch 16 is electricallyconnected with the gate lines 13, a source electrode of the thin filmtransistor switch 16 is electrically connected with the data line 14,and a drain source of the thin film transistor switch 16 is electricallyconnected with the pixel electrode 15. The gate line 13 is used forcontrolling the thin film transistor switch 16 in the pixel area to beturn-on and turn-off, the data line 14 is used for writing a data signalto the pixel electrode 15 corresponding to the pixel area when the thinfilm transistor switch 16 is turned on.

Since the orthogonal projection of the second black matrix 21 b on thecolor film substrate 2 does not overlap with the orthogonal projectionof the gap between adjacent two columns of highlight color filters 221on the color film substrate 2, that is, an orthogonal projection of thesecond black matrix 21 b on the array substrate 1 does not overlap withthe data line between adjacent two columns of highlight sub-pixels 11 donot overlap; however, if a data line is arranged therebetween, and thedata line is made of metal, the data line will reflect the light whenthe light outside the display panel reaches the data line, therebycausing adverse influence to the display effect. In order to avoid theabove-mentioned problem, as shown in FIG. 3 and FIG. 9, there is on dataline 14 between the two columns of highlight sub-pixels 11 included ineach group of highlight sub-pixels 11 according to embodiments of thepresent disclosure. Based on this, there are various arrangement mannersof the data lines 14 on the array substrate 1, and the arrangementmanner of the data lines 14 has a certain relation with the arrangementof the sub-pixels. The following embodiments of the present disclosurewill illustrate the arrangement manners of the data lines on the arraysubstrate 1 which satisfy the above-mentioned conditions for differentarrangements of sub-pixels.

In an example, an arrangement of the sub-pixels in the array substrate 1is as follows. As shown in FIG. 10, FIG. 10 illustrates a firstschematic diagram of an arrangement of sub-pixels according to anembodiment of the present disclosure. Two columns of color sub-pixels 12are arranged between any two groups of highlight sub-pixels 11, eachcolumn of color sub-pixels 12 only includes one of the first colorsub-pixel 12 a, the second color sub-pixel 12 b and the third colorsub-pixel 12 c, and one column of the first color sub-pixels 12 a, onecolumn of the second color sub-pixels 12 b and one column of the thirdcolor sub-pixels 12 c are arranged alternatively. Optionally, as shownin the dotted frame in FIG. 10, each pixel of the array substrate 1successively includes one first color sub-pixel 12 a, two highlightsub-pixels 11, one second color sub-pixel 12 b, one third colorsub-pixel 12 c and one highlight sub-pixel 11 along the row direction,where the area ratio of the highlight sub-pixels 11 to all thesub-pixels is 50%. In such an arrangement manner of sub-pixels, thereare two relations between the drive manner of the highlight sub-pixels11 and the drive manner of the color sub-pixels as follows:

As for a first relation, as shown in FIG. 3 and FIG. 9, the arraysubstrate 1 is further provided with a plurality of gate lines 13 and aplurality of data lines 14 intersecting with the plurality of gate lines13, the gate lines 13 and the data lines 14 cooperatively define aplurality of pixel areas. A highlight sub-pixel 11 and its adjacentcolor sub-pixel 12 are located in one pixel area, and the highlightsub-pixel 11 and the adjacent color sub-pixel 12 (the first colorsub-pixel 12 a, the second color sub-pixel 12 b or the third colorsub-pixel 12 c) share one pixel electrode 15 (not shown in FIG. 3) andone thin film transistor switch 16 (simply indicated by a smallrectangular block in FIG. 3, similar in other figures). Each pixel areais provided with one pixel electrode 15 and one thin film transistorswitch 16, the gate electrode of the thin film transistor switch 16 iselectrically connected with the gate line 13, the source electrode iselectrically connected with the data line 14, and the drain electrode iselectrically connected with the pixel electrode 15. Correspondingly, asshown in FIG. 4, the first black matrixes 21 a and the second blackmatrixes 21 b on the color film substrate 2 also define a plurality ofpixel areas, the highlight color filter 221 and its adjacent coloredcolor filter are located in one pixel area, and there is no black matrix21 therebetween.

On the basis of this, according to the embodiments of the presentdisclosure, as shown in FIG. 3, two data lines 14 are arranged betweenany adjacent two columns of color sub-pixels 12, and are respectivelycorresponding to the thin film transistor switches at two sides thereof.As a result, in one aspect, no data line 14 is arranged between the twocolumns of highlight sub-pixels 11 of any group of highlight sub-pixels11, and all the thin film transistors can correspond to the data lines14; in the other aspect, since two data lines 14 are arranged betweenadjacent two columns of color sub-pixels 12, and no data line isarranged among other columns of sub-pixels, the second black matrix 21 bcorresponding to the gap between adjacent two columns of colorsub-pixels 12 with two data lines 14 arranged therebetween will belarger than (with an increase amount) the second black matrix 21 bcorresponding to the gap between adjacent two columns of colorsub-pixels 12 with one data line 14 arranged therebetween, the secondblack matrix 21 b corresponding to the gap between adjacent two columnsof color sub-pixels 12 arranged with no data line 14 arrangedtherebetween is smaller than (with a decrease amount) the second blackmatrix 21 b corresponding to the gap between adjacent two columns ofcolor sub-pixels 12 with one data line 14 arranged therebetween, and theincrease amount is less than the decrease amount, so that the total areaof the second black matrixes 21 b on the color film substrate 2 issmall, and the area occupied by the black matrix 21 for light shading inthe display area of the display panel is small, thus the transmittanceof the display panel is higher.

As for a second relation, as shown in FIG. 11, FIG. 12 and FIG. 13,FIGS. 11-13 illustrates fourth to sixth top views of an array substrateaccording to embodiments of the present disclosure. The array substrate1 is further provided with a plurality of gate lines 13 and a pluralityof data lines 14 intersecting with the plurality of gate lines 13, thegate lines 13 and the data lines 14 cooperatively define a plurality ofpixel areas. The first color sub-pixel 12 a, the second color sub-pixel12 b, the third color sub-pixel 12 c and the highlight sub-pixel 11 arerespectively arranged in one pixel area with a pixel electrode and athin film transistor switch. Each pixel area is provided with one pixelelectrode and one thin film transistor switch, the gate electrode of thethin film transistor switch is electrically connected with the gate line13, the source electrode is electrically connected with the data line14, the drain electrode is electrically connected with the pixelelectrode. Correspondingly, as shown in FIG. 14, FIG. 14 illustrates afourth top view of a color film substrate according to an embodiment ofthe present disclosure. The first black matrixes 21 a and the secondblack matrixes 21 b on the color film substrate 2 also define aplurality of pixel areas, the highlight color filter 221, the firstcolored color filter 222, the second colored color filter 223 and thethird colored color filter 224 are respectively located in one pixelarea, the highlight color filter 221, the first colored color filter222, the second colored color filter 223 and the third colored colorfilter 224 are separated from each other by the black matrix 21.

On the basis of this, embodiments of the present disclosure providevarious optional arrangement manners of the data lines. Manner One, asshown in FIG. 11, two data lines 14 are arranged between each column ofcolor sub-pixels 12 and one adjacent column of highlight sub-pixels 11,and the two data lines 14 respectively correspond to the thin filmtransistor switches at two sides thereof. Manner Two, as shown in FIG.12, two data lines 14 are arranged between adjacent two columns of colorsub-pixels 12, and the two data lines 14 respectively correspond to thethin film transistor switch at two sides thereof; one data line 14 isarranged between each column of color sub-pixels 12 and one adjacentcolumn of highlight sub-pixels 11, and the one data line 14 correspondsto the thin film transistor switches of the highlight sub-pixels 11.Manner Three, as shown in FIG. 13, between any two adjacent groups ofhighlight sub-pixels 11, two data lines 14 are arranged between onecolumn of highlight sub-pixels 11 in the first group of highlightsub-pixels 11 and one adjacent column of color sub-pixels 12, one dataline 14 is arranged between adjacent two columns of color sub-pixels 12,and one data line 14 is arranged between one column of color sub-pixels12 and one column of highlight sub-pixels 11 in the adjacent secondgroup of highlight sub-pixels 11.

The above-mentioned arrangement manners can achieve that no data line 14is placed between the two columns of highlight sub-pixels 11 included ineach group of highlight sub-pixels 11 and, at the same time, achievethat all the thin film transistors correspond to the data lines 14, sothat the display panel can normally display. It should be noted that,compared with Manner Two and Manner Three, each of which includes asituation that two data lines 14 are placed between two adjacent columnsof sub-pixels, a situation that no data line 14 is placed between twoadjacent columns of sub-pixels, and a situation that one data line 14 isplaced between adjacent two columns of sub-pixels at the same time,Manner One only includes a situation that two data lines 14 are placedbetween two adjacent columns of sub-pixels, and a situation that no dataline 14 is placed between adjacent two columns of sub-pixels, so thatthe total area of the second black matrixes 21 b on the color filmsubstrate 2 is smaller, thus the area occupied by the black matrix 21for light shading in the display area of the display panel is smaller,therefore, the transmittance of the display panel is higher.

In another example, as shown in FIG. 15, FIG. 15 illustrates a secondschematic diagram of an arrangement of sub-pixels according to anembodiment of the present disclosure. Six columns of color sub-pixels 12are arranged between any two groups of highlight sub-pixels 11, the sixcolumns of color sub-pixels 12 include two columns of first colorsub-pixels 12 a, two columns of second color sub-pixels 12 b and twocolumns of third color sub-pixels 12 c, and one column of the firstcolor sub-pixel 12 a, one column of the second color sub-pixel 12 b andone column of the third color sub-pixel 12 c are arranged alternatively.Optionally, as shown in the dotted frame in FIG. 15, each pixel of thearray substrate 1 includes, in the row direction, one first colorsub-pixel 12 a, one second color sub-pixel 12 b, one third colorsub-pixel 12 c and a highlight sub-pixel 11, the area ratio of thehighlight sub-pixels 11 to all the pixels is 25%.

In such an arrangement manner of sub-pixels, the drive manner of thehighlight sub-pixels 11 and the drive manner of the color sub-pixels areas follows: as shown in FIG. 16, FIG. 17 and FIG. 18, FIGS. 16-18illustrate seventh to ninth top views of an array substrate according toembodiments of the present disclosure. The array substrate 1 is furtherprovided with a plurality of gate lines 13 and a plurality of data lines14 intersecting with the plurality of gate lines 13, the gate lines 13and the data lines 14 cooperatively define a plurality of pixel areas.The first color sub-pixel 12 a, the second color sub-pixel 12 b, thethird color sub-pixel 12 c and the highlight sub-pixel 11 arerespectively arranged in one pixel area with a pixel electrode and athin film transistor switch. Each pixel area is provided with one pixelelectrode and one thin film transistor switch, the gate electrode of thethin film transistor switch is electrically connected with the gate line13, the source electrode is electrically connected with the data line14, and the drain electrode is electrically connected with the pixelelectrode. Correspondingly, as shown in FIG. 19, FIG. 19 illustrates afifth top view of a color film substrate according to an embodiment ofthe present disclosure, the first black matrixes 21 a and the secondblack matrixes 21 b on the color film substrate 2 also define aplurality of pixel areas, the highlight color filter 221, the firstcolored color filter 222, the second colored color filter 223 and thethird colored color filter 224 are respectively located in one pixelarea, the highlight color filter 221, the first colored color filter222, the second colored color filter 223 and the third colored colorfilter 224 are separated from each other by the black matrix 21.

On the basis of this, embodiments of the present disclosure providevarious optional arrangement manners of the data lines:

Manner One, as shown in FIG. 16, two data lines 14 are arranged betweeneach column of highlight sub-pixels 11 and a first column of colorsub-pixels 12 at a side thereof, one data line 14 corresponds to thethin film transistor switch of the column of highlight sub-pixels 11,and the other data line 14 corresponds to the thin film transistorswitch of the first column of color sub-pixels 12; no data line 14 isarranged between the first column of color sub-pixels 12 and a secondcolumn of color sub-pixels 12 at this side; two data lines 14 arearranged between the second column of color sub-pixels 12 and a thirdcolumn of color sub-pixels 12 at this side, one data line 14 correspondsto the thin film transistor switch of the second column of colorsub-pixels 12, and the other data line 14 corresponds to the thin filmtransistor of the third column of color sub-pixels 12. It should benoted that, in such an arrangement manner, six columns of colorsub-pixels 12 are arranged between any two groups of highlightsub-pixels 11, although the above arrangement manner only mentions thedata lines 14 arranged between one column of highlight sub-pixels 11 inone group of highlight sub-pixels 11 and three columns of colorsub-pixels 12 at one side thereof, considering that each group ofhighlight sub-pixels 11 includes adjacent two columns of highlightsub-pixels 11, as long as each of the two columns of highlightsub-pixels 11 included in each group of highlight sub-pixels 11 and thethree adjacent columns of color sub-pixels 12 at one side thereof arearranged according to above manner, the arrangement of all the datalines 14 on the array substrate 1 can be completed, which will not berepeated herein.

For example, as shown in FIG. 16, two data lines 14 are arranged betweenone column of highlight sub-pixels 11 and one column of first colorsub-pixels 12 a at the right side of the column of highlight sub-pixels11, one data line 14 corresponds to the thin film transistor switches ofthe column of highlight sub-pixels 11, and the other data line 14corresponds to the thin film transistor switches of the column of firstcolor sub-pixels 12 a; no data line 14 is arranged between the column offirst color sub-pixels 12 a and one column of second color sub-pixels 12b at the right side of the column of first color sub-pixel 12 a; twodata lines 14 are arranged between the column of second color sub-pixels12 b and one column of third color sub-pixels 12 c at the right side ofthe column of second color sub-pixels 12 b, one data line 14 correspondsto the thin film transistor switches of the column of second colorsub-pixels 12 b, and the other data line 14 corresponds to the thin filmtransistor switches of the column of third color sub-pixels 12 c.

Manner Two, as shown in FIG. 17, between two groups (a first group and asecond group) of highlight sub-pixels 11, two data lines 14 are arrangedbetween one column of highlight sub-pixels 11 in the first group ofhighlight sub-pixels 11 and a first column of color sub-pixels 12 at aside thereof, wherein one data line 14 corresponds to the thin filmtransistor switches of the column of highlight sub-pixels 11, and theother data line 14 corresponds to the thin film transistor switches ofthe first column of color sub-pixels 12; one data line 14 is arrangedbetween the first column of color sub-pixels 12 and a second column ofcolor sub-pixels 12 at this side, the data line 14 corresponds to thethin film transistor switches of the second column of color sub-pixels12; no data line 14 is arranged between the second column of colorsub-pixels 12 and a third column of color sub-pixels 12 at this side;two data lines 14 are arranged between the third column of colorsub-pixels 12 and a fourth column of color sub-pixels 12 at this side,one data line 14 corresponds to the thin film transistor switches of thethird column of color sub-pixels 12, and the other data line 14corresponds to the thin film transistor switches of the fourth column ofcolor sub-pixels 12; one data line 14 is arranged between the fourthcolumn of color sub-pixels 12 and a fifth column of color sub-pixels 12at this side, the data line 14 corresponds to the thin film transistorswitches of the fifth column of color sub-pixels 12; no data line 14 isarranged between the fifth column of color sub-pixels 12 and a sixthcolumn of color sub-pixels 12 at this side; two data lines 14 arearranged between the sixth column of color sub-pixels 12 and one columnof highlight sub-pixels 11 in the second group of highlight sub-pixels11, one data line 14 corresponds to the thin film transistor switches ofthe sixth column of color sub-pixels 12, and the other data line 14corresponds to the thin film transistor switches of the column ofhighlight sub-pixels 11 in the second group of highlight sub-pixels 11.

For example, as shown in FIG. 17, between two groups (a first group anda second group) of highlight sub-pixels 11, two data lines 14 arearranged between one column of highlight sub-pixels 11 in the firstgroup of highlight sub-pixels 11 and one column of first colorsub-pixels 12 a at the right side of the column of highlight sub-pixels11, one data line 14 corresponds to the thin film transistor switches ofthe column of highlight sub-pixels 11, and the other data line 14corresponds to the thin film transistor switches of the column of firstcolor sub-pixels 12 a; one data line 14 is arranged between the columnof first color sub-pixels 12 a and one column of second color sub-pixels12 b at the right side of the column of first color sub-pixels 12 a, thedata line 14 corresponds to the thin film transistor switches of thecolumn of second color sub-pixels 12 b; no data line 14 is arrangedbetween the column of second color sub-pixels 12 b and one column ofthird color sub-pixels 12 c at the right side of the column of secondcolor sub-pixels 12 b; two data lines 14 are arranged between the columnof third color sub-pixels 12 c and one column of first color sub-pixels12 a at the right side of the column of third color sub-pixels 12 a, onedata line 14 corresponds to the thin film transistor switches of thecolumn of third color sub-pixels 12 c, and the other data line 14corresponds to the thin film transistor switches of the column of firstcolor sub-pixels 12 a; one data line 14 is arranged between the columnof first color sub-pixels 12 a and one column of second color sub-pixels12 b at the right side of the column of first color sub-pixels 12 a, thedata line 14 corresponds to the thin film transistor switches of thecolumn of second color sub-pixels 12 b; no data line 14 is arrangedbetween the column of second color sub-pixels 12 b and one column ofthird color sub-pixels 12 c at the right side of the column of secondcolor sub-pixels 12 b; two data lines 14 are arranged between the columnof third color sub-pixels 12 c and one column of highlight sub-pixels 11in the second group of highlight sub-pixels 11, one data line 14corresponds to the thin film transistor switches of the column of thirdcolor sub-pixels 12 c, and the other data line 14 corresponds to thethin film transistor switches of the column of highlight sub-pixels 11in the second group of highlight sub-pixels 11.

Manner 3, as shown in FIG. 18, between two groups (a first group and asecond group) of highlight sub-pixels 11, one data line 14 is arrangedbetween one column of highlight sub-pixels 11 in the first group ofhighlight sub-pixels 11 and one first column of color sub-pixels 12 at aside of the column of highlight sub-pixels 11, the data line 14corresponds to the thin film transistor switches of the column ofhighlight sub-pixels 11; two data lines 14 are arranged between thefirst column of color sub-pixels 12 and a second column of colorsub-pixels 12 at this side, one data line 14 corresponds to the thinfilm transistor switches of the first column of color sub-pixels 12, andthe other data line 14 corresponds to the thin film transistor switchesof the second column of color sub-pixels 12; no data line 14 is arrangedbetween the second column of color sub-pixels 12 and a third column ofcolor sub-pixels 12 at this side; two data lines 14 are arranged betweenthe third column of color sub-pixels 12 and a fourth column of colorsub-pixels 12 at this side, one data line 14 corresponds to the thinfilm transistor switches of the third column of color sub-pixels 12, andthe other data line 14 corresponds to the thin film transistor switchesof the fourth column of color sub-pixels 12; no data line 14 is arrangedbetween the fourth column of color sub-pixels 12 and a fifth column ofcolor sub-pixels 12 at this side; two data lines 14 are arranged betweenthe fifth column of color sub-pixels 12 and a sixth column of colorsub-pixels 12 at this side, one data line 14 corresponds to the thinfilm transistor switches of the fifth column of color sub-pixels 12, andthe other data line 14 corresponds to the thin film transistor switchesof the sixth column of color sub-pixels 12; one data line 14 is arrangedbetween the sixth column of color sub-pixels 12 and one column ofhighlight sub-pixels 11 in the second group of highlight sub-pixels 11,the data line 14 corresponds to the thin film transistor switches of thecolumn of highlight sub-pixels 11 in the second group of highlightsub-pixels 11.

For example, as shown in FIG. 18, between two groups (a first group anda second group) of highlight sub-pixels 11, one data line 14 is arrangedbetween one column of highlight sub-pixels 11 in the first group ofhighlight sub-pixels 11 and one column of first color sub-pixels 12 a atthe right side thereof, the data line 14 corresponds to the thin filmtransistor switches of the column of highlight sub-pixels 11; two datalines 14 are arranged between the column of first color sub-pixels 12 aand a column of second color sub-pixels 12 b at the right side thereof,one data line 14 corresponds to the thin film transistor switches of thecolumn of first color sub-pixels 12 a, and the other data line 14corresponds to the thin film transistor switches of the column of secondcolor sub-pixels 12 b; no data line 14 is arranged between the column ofsecond color sub-pixels 12 b and a column of third color sub-pixels 12 cat the right side thereof; two data lines 14 are arranged between thecolumn of third color sub-pixels 12 c and a column of first colorsub-pixels 12 a at the right side thereof, one data line 14 correspondsto the thin film transistor switches of the column of third colorsub-pixels 12 c, and the other data line 14 corresponds to the thin filmtransistor switches of the column of first color sub-pixels 12 a; nodata line 14 is arranged between the column of first color sub-pixels 12a and a column of second color sub-pixels 12 b at the right sidethereof; two data lines 14 are arranged between the column of secondcolor sub-pixels 12 b and a column of third color sub-pixels 12 c at theright side thereof, one data line 14 corresponds to the thin filmtransistor switch of the column of second color sub-pixels 12 b, and theother data line 14 corresponds to the thin film transistor switches ofthe column of third color sub-pixels 12 c; one data line 14 is arrangedbetween the column of third color sub-pixels 12 c and one column ofhighlight sub-pixels 11 in the second group of highlight sub-pixels 11,the data line 14 corresponds to the thin film transistor switches of thecolumn of highlight sub-pixels 11 in the second group of highlightsub-pixels 11.

Each of the above-mentioned arrangement manners can achieve that no dataline 14 is placed between the two columns of highlight sub-pixels 11included in each group of highlight sub-pixels 11 and, at the same time,achieve that all the thin film transistors correspond to the data lines14, so that the display panel can normally display. It should be notedthat, compared with Manner Two and Manner Three, each of which includesa situation that two data lines 14 are placed between two adjacentcolumns of sub-pixels, a situation that no data line 14 is placedbetween two adjacent columns of sub-pixels, and a situation that onedata line 14 is placed between adjacent two columns of sub-pixels at thesame time, Manner One only includes a situation that two data lines 14are placed between two adjacent columns of sub-pixels, and a situationthat no data line 14 is placed between adjacent two columns ofsub-pixels, so that the total area of the second black matrixes 21 b onthe color film substrate 2 is smaller, thus the area occupied by theblack matrix 21 for light shading in the display area of the displaypanel is smaller, therefore, the transmittance of the display panel ishigher.

Moreover, an embodiment of the present disclosure provides a displaydevice, as shown in FIG. 20, FIG. 20 illustrates a top view of a displaydevice according to an embodiment of the present disclosure. The displaydevice includes the display panel 600 according to any one of the aboveembodiments. The display device provided by the present disclosure canbe any product or component having display function, such as smartphone, wearable smart watch, smart glasses, tablet PC, television,display screen, laptop, digital photo frame, navigator, car monitor,electrophoretic display, e-Book etc. The display panel and the displaydevice provided by the embodiment of the present disclosure can beflexible, or can also be non-flexible, which will not be limited in thepresent disclosure.

The embodiments of the present disclosure provide a display panel and adisplay device. In the display panel, every two adjacent columns ofhighlight sub-pixels in the array substrate form a group of highlightsub-pixels, at least one column of color sub-pixels is arranged betweenany two groups of highlight sub-pixels, correspondingly, every twoadjacent columns of highlight color filters in the color film substrateform a group of highlight color filters, at least one column of coloredcolor filters is arranged between any two groups of highlight colorfilters. Since the colors of the output light of adjacent two columns ofhighlight sub-pixels and adjacent two columns of highlight color filtersare the same, color mixture will not occur, thus the orthogonalprojection of the second black matrix on the color film substrate doesnot overlap with the orthogonal projection of the gap between theadjacent two columns of highlight color filters on the color filmsubstrate, which effectively reduces the area occupied by the blackmatrix for light shading in the display area of the display panel, andimproves the open rate of the display panel, thereby improving thetransparent display effect of the display panel.

The above are just the preferred embodiments of the present disclosure,which will not limit the present disclosure. Any modifications,equivalent replacements and improvements made within the spirits andprinciples of the present application shall all fall in the protectionscope of the present application.

1. (canceled)
 2. (canceled)
 3. (canceled)
 4. A display panel,comprising: an array substrate; and a color film substrate arrangedopposite to the array substrate; wherein the array substrate comprises aplurality of columns of highlight sub-pixels and a plurality of columnsof color sub-pixels; every two adjacent columns of highlight sub-pixelsof the plurality of columns of highlight sub-pixels form a group ofhighlight sub-pixels, at least one column of color sub-pixels of theplurality of columns of color sub-pixels is arranged between any twogroups of highlight sub-pixels; each column of color sub-pixels of theplurality of columns of color sub-pixels comprises at least one type ofa first color sub-pixel, a second color sub-pixel and a third colorsub-pixel; wherein the color film substrate comprises a black matrix anda plurality of color filters arranged in an array; in a row direction,the black matrix comprises a first black matrix corresponding to a gapbetween adjacent two sub-pixels and, in a column direction, the blackmatrix comprises a second black matrix corresponding to a gap betweenadjacent two sub-pixels; the plurality of color filters comprises aplurality of columns of highlight color filters and a plurality ofcolumns of colored color filters, every two adjacent columns ofhighlight color filters of the plurality of columns of highlight colorfilters form a group of highlight color filters, at least one column ofcolored color filters of the plurality of columns of colored colorfilters is arranged between any two groups of highlight color filters,and each column of colored color filters of the plurality of columns ofcolored color filters comprises at least one type of a first coloredcolor filter, a second colored color filter and a third colored colorfilter; an orthogonal projection of the second black matrix on the colorfilm substrate does not overlap with an orthogonal projection of the gapbetween the two adjacent columns of highlight color filters on the colorfilm substrate; wherein no data line is arranged between the two columnsof highlight sub-pixels comprised in each group of highlight sub-pixels;and wherein only two columns of color sub-pixels of the plurality ofcolumns of color sub-pixels are arranged between any two groups ofhighlight sub-pixels, each of the two columns of color sub-pixels onlycomprises one type of the first color sub-pixel, the second colorsub-pixel and the third color sub-pixel, and one column of first colorsub-pixel, one column of second color sub-pixel and one column of thirdcolor sub-pixel are arranged alternately.
 5. The display panel accordingto claim 4, wherein the array substrate is further provided with aplurality of gate lines and a plurality of data lines intersecting withthe plurality of gate lines, the plurality of gate lines and theplurality of data lines cooperatively define a plurality of pixel areas,each highlight sub-pixel of the plurality of columns of highlightsub-pixels and an adjacent color sub-pixel of the plurality of columnsof color sub-pixels are arranged in one pixel area of the plurality ofpixel areas, and share one pixel electrode and one thin film transistorswitch.
 6. The display panel according to claim 5, wherein two datalines are arranged between any adjacent two columns of color sub-pixels,and the two data lines respectively correspond to the thin filmtransistor switches at two sides thereof.
 7. The display panel accordingto claim 4, wherein the array substrate is further provided with aplurality of gate lines and a plurality of data lines intersecting withthe plurality of gate lines, the plurality of gate lines and theplurality of data lines cooperatively define a plurality of pixel areas,each first color sub-pixel of the plurality of columns of colorsub-pixels, each second color sub-pixel of the plurality of columns ofcolor sub-pixels, each third color sub-pixel of the plurality of columnsof color sub-pixels and each highlight sub-pixel of the plurality ofcolumns of highlight sub-pixels are respectively arranged in one pixelarea of the plurality of pixel areas with a corresponding pixelelectrode and a corresponding thin film transistor switch.
 8. Thedisplay panel according to claim 7, wherein two data lines are arrangedbetween each column of color sub-pixels and one adjacent column ofhighlight sub-pixels, and the two data lines respectively correspond tothe thin film transistor switches at two sides thereof.
 9. The displaypanel according to claim 7, wherein two data lines are arranged betweenadjacent two columns of color sub-pixels, and the two data linesrespectively correspond to the thin film transistor switches at twosides thereof; one data line is arranged between each column of colorsub-pixels and one adjacent column of highlight sub-pixels, and the onedata line correspond to the thin film transistor switches of the columnof highlight sub-pixels.
 10. (canceled)
 11. (canceled)
 12. A displaypanel, comprising: an array substrate; and a color film substratearranged opposite to the array substrate; wherein the array substratecomprises a plurality of columns of highlight sub-pixels and a pluralityof columns of color sub-pixels; every two adjacent columns of highlightsub-pixels of the plurality of columns of highlight sub-pixels form agroup of highlight sub-pixels, at least one column of color sub-pixelsof the plurality of columns of color sub-pixels is arranged between anytwo groups of highlight sub-pixels; each column of color sub-pixels ofthe plurality of columns of color sub-pixels comprises at least one typeof a first color sub-pixel, a second color sub-pixel and a third colorsub-pixel; wherein the color film substrate comprises a black matrix anda plurality of color filters arranged in an array; in a row direction,the black matrix comprises a first black matrix corresponding to a gapbetween adjacent two sub-pixels and, in a column direction, the blackmatrix comprises a second black matrix corresponding to a gap betweenadjacent two sub-pixels; the plurality of color filters comprises aplurality of columns of highlight color filters and a plurality ofcolumns of colored color filters, every two adjacent columns ofhighlight color filters of the plurality of columns of highlight colorfilters form a group of highlight color filters, at least one column ofcolored color filters of the plurality of columns of colored colorfilters is arranged between any two groups of highlight color filters,and each column of colored color filters of the plurality of columns ofcolored color filters comprises at least one type of a first coloredcolor filter, a second colored color filter and a third colored colorfilter; an orthogonal projection of the second black matrix on the colorfilm substrate does not overlap with an orthogonal projection of the gapbetween the two adjacent columns of highlight color filters on the colorfilm substrate; wherein six columns of color sub-pixels are arrangedbetween any two groups of highlight sub-pixels, the six columns of colorsub-pixels comprise two columns of first color sub-pixels, two columnsof second color sub-pixels and two columns of third color sub-pixels,and one column of first color sub-pixels, one column of second colorsub-pixels and one column of third color sub-pixels are arrangedalternately; wherein the array substrate is further provided with aplurality of gate lines and a plurality of data lines intersecting withthe plurality of gate lines, the plurality of gate lines and theplurality of data lines cooperatively define a plurality of pixel areas,and each first color sub-pixel of the plurality of columns of colorsub-pixels, each second color sub-pixel of the plurality of columns ofcolor sub-pixels, each third color sub-pixel of the plurality of columnsof color sub-pixels and each highlight sub-pixel of the plurality ofcolumns of color sub-pixels are respectively arranged in one pixel areaof the plurality of pixel areas with a corresponding pixel electrode anda corresponding thin film transistor switch; wherein no data line isarranged between the two columns of highlight sub-pixels comprised ineach group of highlight sub-pixels; and wherein two data lines of theplurality of data lines are arranged between each column of highlightsub-pixels of the plurality of columns of highlight sub-pixels and afirst column of color sub-pixels at a side of the column of highlightsub-pixels, wherein one data line of the two data lines corresponds tothe thin film transistor switches of the column of highlight sub-pixels,and the other data line of the two data lines corresponds to the thinfilm transistor switches of the first column of color sub-pixels; nodata line is arranged between the first column of color sub-pixels and asecond column of color sub-pixels at the side; another two data lines ofthe plurality of data lines are arranged between the second column ofcolor sub-pixels and a third column of color sub-pixels at the side,wherein one data line of the another two data lines corresponds to thethin film transistor switches of the second column of color sub-pixels,and the other data line of the another two data lines corresponds to thethin film transistor switches of the third column of color sub-pixels,wherein the first column of color sub-pixels is one column of colorsub-pixels of the six columns of color sub-pixels that is closest to thecolumn of highlight sub-pixels, the second column of color sub-pixels isanother column of color sub-pixels of the six columns of colorsub-pixels that is closest to the first column of color sub-pixels, andthe third column of color sub-pixels is still another column of colorsub-pixels of the six columns of color sub-pixels that is closest to thesecond column of color sub-pixels rather than the first column of colorsub-pixels.
 13. The display panel according to claim 12, wherein thefirst color sub-pixel, the second color sub-pixel and the third colorsub-pixel are respectively one of a red sub-pixel, a green sub-pixel anda blue sub-pixel.
 14. The display panel according to claim 12, whereineach highlight sub-pixel of the plurality of columns of highlightsub-pixels is either a white sub-pixel or a yellow sub-pixel.
 15. Thedisplay panel according to claim 12, wherein each sub-pixel of theplurality of columns of highlight sub-pixels and the plurality ofcolumns of color sub-pixels has a rectangle shape, and has a same size,with a width-length ratio of 1:2 or 1:3.
 16. The display panel accordingto claim 14, wherein each highlight color filter of the plurality ofcolumns of highlight color filters is either a white color filter or ayellow color filter.
 17. The display panel according to claim 16,wherein each highlight color filter of the plurality of columns ofhighlight color filters is a white color filter, the color filmsubstrate further comprises a transparent protection layer located at aside of the plurality of color filters arranged in array close to thearray substrate, and the highlight color filter and the transparentprotection layer are made of a same material.
 18. A display device,comprising a display panel, wherein the display panel comprises: anarray substrate; and a color film substrate arranged opposite to thearray substrate; wherein the array substrate comprises a plurality ofcolumns of highlight sub-pixels and a plurality of columns of colorsub-pixels; every two adjacent columns of highlight sub-pixels of theplurality of columns of highlight sub-pixels form a group of highlightsub-pixels, at least one column of color sub-pixels of the plurality ofcolumns of color sub-pixels is arranged between any two groups ofhighlight sub-pixels; each column of color sub-pixels of the pluralityof columns of color sub-pixels comprises at least one type of a firstcolor sub-pixel, a second color sub-pixel and a third color sub-pixel;wherein the color film substrate comprises a black matrix and aplurality of color filters arranged in an array; in a row direction, theblack matrix comprises a first black matrix corresponding to a gapbetween adjacent two sub-pixels and, in a column direction, the blackmatrix comprises a second black matrix corresponding to a gap betweenadjacent two sub-pixels; the plurality of color filters comprises aplurality of columns of highlight color filters and a plurality ofcolumns of colored color filters, every two adjacent columns ofhighlight color filters of the plurality of columns of highlight colorfilters form a group of highlight color filters, at least one column ofcolored color filters of the plurality of columns of colored colorfilters is arranged between any two groups of highlight color filters,and each column of colored color filters of the plurality of columns ofcolored color filters comprises at least one type of a first coloredcolor filter, a second colored color filter and a third colored colorfilter; an orthogonal projection of the second black matrix on the colorfilm substrate does not overlap with an orthogonal projection of the gapbetween the two adjacent columns of highlight color filters on the colorfilm substrate; wherein no data line is arranged between the two columnsof highlight sub-pixels comprised in each group of highlight sub-pixels;and wherein only two columns of color sub-pixels are arranged betweenany two groups of highlight sub-pixels, each of the two columns of colorsub-pixels only comprises one type of the first color sub-pixel, thesecond color sub-pixel and the third color sub-pixel, and one column offirst color sub-pixel, one column of second color sub-pixel and onecolumn of third color sub-pixel are arranged alternately.
 19. Thedisplay panel according to claim 4, wherein the first color sub-pixel,the second color sub-pixel and the third color sub-pixel arerespectively one of a red sub-pixel, a green sub-pixel and a bluesub-pixel.
 20. The display panel according to claim 4, wherein eachhighlight sub-pixel of the plurality of columns of highlight sub-pixelsis either a white sub-pixel or a yellow sub-pixel.
 21. The display panelaccording to claim 4, wherein each sub-pixel of the plurality of columnsof highlight sub-pixels and the plurality of columns of color sub-pixelshas a rectangle shape, and has a same size, with a width-length ratio of1:2 or 1:3.
 22. The display panel according to claim 20, wherein eachhighlight color filter of the plurality of columns of highlight colorfilters is either a white color filter or a yellow color filter.
 23. Thedisplay panel according to claim 22, wherein each highlight color filterof the plurality of columns of highlight color filters is a white colorfilter, the color film substrate further comprises a transparentprotection layer located at a side of the plurality of color filtersarranged in array close to the array substrate, and the highlight colorfilter and the transparent protection layer are made of a same material.24. The display panel according to claim 4, wherein an orthogonalprojection of the first black matrix on the color film substrate doesnot overlap with an orthogonal projection of the two adjacent highlightcolor filters on the color film substrate.
 25. The display panelaccording to claim 12, wherein an orthogonal projection of the firstblack matrix on the color film substrate does not overlap with anorthogonal projection of the two adjacent highlight color filters on thecolor film substrate.